RU2243381C1 - Device for controlling spark-safety of electric networks - Google Patents

Abstract

FIELD: mining industry.

SUBSTANCE: device has induction sensor, output of which is connected to information input of memory block, output of which is connected to information input of indicator block and power block, output of which is connected to inputs of amplifier power, memory block and indicator block. Device is provided with delay multi-vibrator, pulse generator, integrator, discontinuous signal generator and sound emitter. Information input of delay multi-vibrator is connected to output of memory block, and output is connected to information input of integrator, output of which is connected to information input of generator of discontinuous signal, output of which is connected to sound emitter. Inputs of power of delay multi-vibrator, pulse generator and integrator and discontinuous signal generator are connected to output of power block.

EFFECT: higher efficiency.

1 dwg

Description

The device relates to the mining, mining, oil and gas industries, as well as municipal construction and the economy, for example, sewers, underground structures, residential buildings and other objects, and is intended for monitoring and diagnosing electrical networks for intrinsic safety, preventing the possibility of an emergency condition.

It is known that automatic machines reliably protect against short circuits in electric circuits, however, in the case of unreliable electrical contacts, sparking may occur in which the machines do not work, and this can lead to local overheating and, therefore, the possibility of fire and explosion.

A device for electrical measurement of the intrinsic safety of inductive circuits containing a sensor in the form of a discharge chopper, a thyristor, a transistor, a zener diode, isolation resistances, an isolation diode and a rectangular pulse generator equipped with a phase shift unit, a discharge gap module containing a zener diode, a capacitor store and a switch, current shunt and electronic oscilloscope [1]. The disadvantage of this device is its complexity, low efficiency and high cost of the equipment used, which does not allow it to be used for continuous monitoring of intrinsic safety of electrical networks.

Closest to the claimed is a device for diagnosing control of electrical networks for intrinsic safety, containing an inductive sensor, amplifier, memory unit, indicator unit and power supply unit, made in the form of a rectifier with a limiting resistor and a parametric voltage regulator [2].

The disadvantage of this device is the impossibility of continuous monitoring of sparking in electrical circuits, if the sparking is intermittent. In addition, the presence of only light signaling does not allow timely notification of the occurrence of sparking.

It is known that in most cases, when sparking occurs, this process proceeds in an intermittent mode, when the sparking process is interspersed with pauses during which there is no sparking. In this case, this device will not give a signal in the pauses between sparks, which can lead to the fact that the maintenance personnel may not notice the alarm signal.

The aim of the invention is to increase the efficiency and efficiency of continuous diagnostics and monitoring of electrical networks for intrinsic safety.

To this end, the device is additionally equipped with a standby multivibrator, pulse shaper, integrator, intermittent signal generator and sound emitter, the information input of the standby multivibrator connected to the output of the memory unit, and the output to the input of the pulse shaper, the output of which is connected to the input of the integrator, the output of which is connected to the input of the intermittent signal generator, the output of which is connected to the sound emitter.

Figure 1 shows a functional diagram of the proposed device.

The device consists of an inductive sensor 1, an amplifier 2, a memory unit 3, an indicator unit 4, a power supply 5, a waiting multivibrator 6, a pulse shaper 7, an integrator 8, an intermittent signal generator 9, and an audio emitter 10.

The device operates as follows:

When sparking occurs, the accompanying electromagnetic field induces an EMF in the inductive sensor 1 and a voltage appears at its output, which is supplied to the information input of amplifier 2, amplified by it, and fed to the information input of memory unit 3, which for a short time T (sufficient to light up the light emitter through the information input of the indicator unit 4) stores the received signal. This signal is fed to the information input of the waiting multivibrator 6, which generates a pulse of constant duration, regardless of the duration of the signal T coming from the memory unit 3, since at different spark durations the time T can vary significantly. This pulse is fed to the information input of the pulse shaper 7 and is formed into a rectangular pulse of constant amplitude, regardless of the amplitude of the signal from the memory unit 3, which can vary depending on the power of the spark. From the pulse shaper 7, a pulse with a steep edge and a fall is fed to the information input of the integrator 8, due to which the voltage starts to increase in the integrator. Thus, the waiting multivibrator 6 and the pulse shaper 7 allow you to increase the voltage in the integrator 8 at each spark by a constant value, regardless of the power and duration of the spark.

If a single sparking occurs, which can occur when switching on or off any consumers of electricity (switches, magnetic starters, etc.), then the voltage in the integrator does not have time to increase to the desired level and gradually decreases to zero. If the sparking is constant or discontinuous, then with each spark the pulse coming from the pulse shaper 7 increases the voltage in the integrator 8, so after a few pulses the voltage level reaches a value sufficient to turn on the intermittent signal generator 9, which sends a signal to the sound emitter 10. Due to this, an intermittent sound signal appears, notifying of the emergency condition of the network.

LITERATURE

1. USSR copyright certificate No. 1224412, cl. E 21 F 9/00, 1986

2. RF patent No. 2042829, cl. E 21 F 9/00, 1995

Claims (1)

A device for monitoring electrical networks for intrinsic safety, containing an inductive sensor, the output of which is connected to the information input of the amplifier, the output of which is connected to the information input of the unit, a memory, the output of which is connected to the information input of the indicator unit, and a power supply, the output of which is connected to the power inputs of the amplifier , a memory unit and an indicator unit, characterized in that it is equipped with a standby multivibrator, pulse shaper, integrator, intermittent signal generator and sound and a radiator, the information input of the standby multivibrator connected to the output of the memory unit, and the output to the information input of the pulse shaper, the output of which is connected to the information input of the integrator, the output of which is connected to the information input of the intermittent signal generator, the output of which is connected to the sound emitter, while the power inputs multivibrator, pulse shaper, integrator and intermittent signal generator are connected to the output of the power supply.